PRREACH: Probabilistic Risk Assessment Using Reachability for UAV Control

Nicole Fronda; Hariharan Narayanan; Sadia Afrin Ananna; Steven Weber; Houssam Abbas

doi:10.1109/ITSC60802.2025.11423752

Back

Conference proceeding

PRREACH: Probabilistic Risk Assessment Using Reachability for UAV Control

Nicole Fronda, Hariharan Narayanan, Sadia Afrin Ananna, Steven Weber and Houssam Abbas

Proceedings (IEEE Conference on Intelligent Transportation Systems), pp 3001-3006

18 Nov 2025

DOI: https://doi.org/10.1109/ITSC60802.2025.11423752

Additional Links

Abstract

Autonomous aerial vehicles

autonomous drone control

autonomous vehicle safety

Hazards

Prevention and mitigation

Probabilistic logic

Reachability analysis

risk assessment

Risk management

Risk mitigation

Spatial databases

Trajectory

Vehicle Dynamics

We present a new approach for designing risk-bounded controllers for Uncrewed Aerial Vehicles (UAVs). Existing frameworks for assessing risk of UAV operations rely on knowing the conditional probability of an incident occurring given different causes. Limited data for computing these probabilities makes real-world implementation of these frameworks difficult. Furthermore, existing frameworks do not include control methods for risk mitigation. Our approach relies on UAV dynamics, and employs reachability analysis for a probabilistic risk assessment over all feasible UAV trajectories. We use this holistic risk assessment to formulate a control optimization problem that minimally changes a UAV's existing control law to be bounded by an accepted risk threshold. We call our approach PRReach. Public and readily available UAV dynamics models and open source spatial data for mapping hazard outcomes enables practical implementation of PRReach for both offline pre-flight and online in-flight risk assessment and mitigation. We evaluate PRReach through simulation experiments on real-world data. Results show that PRReach controllers reduce risk by up to 24 % offline, and up to 53 % online from classical controllers.

Metrics

1 Record Views

Details

Title: PRREACH: Probabilistic Risk Assessment Using Reachability for UAV Control
Creators: Nicole Fronda - Oregon State University
Hariharan Narayanan - Drexel University
Sadia Afrin Ananna - Drexel University
Steven Weber - Drexel University
Houssam Abbas - Drexel University
Publication Details: Proceedings (IEEE Conference on Intelligent Transportation Systems), pp 3001-3006
Publisher: IEEE
Resource Type: Conference proceeding
Language: English
Academic Unit: Electrical and Computer Engineering
Other Identifier: 991022171474204721

PRREACH: Probabilistic Risk Assessment Using Reachability for UAV Control

Additional Links

Abstract

Metrics

Details

Drexel University Social media